US1218726A - Liquid-measuring apparatus. - Google Patents
Liquid-measuring apparatus. Download PDFInfo
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- US1218726A US1218726A US82928214A US1914829282A US1218726A US 1218726 A US1218726 A US 1218726A US 82928214 A US82928214 A US 82928214A US 1914829282 A US1914829282 A US 1914829282A US 1218726 A US1218726 A US 1218726A
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- valve
- chamber
- chambers
- float
- rocker
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01F—MEASURING VOLUME, VOLUME FLOW, MASS FLOW OR LIQUID LEVEL; METERING BY VOLUME
- G01F3/00—Measuring the volume flow of fluids or fluent solid material wherein the fluid passes through the meter in successive and more or less isolated quantities, the meter being driven by the flow
- G01F3/36—Measuring the volume flow of fluids or fluent solid material wherein the fluid passes through the meter in successive and more or less isolated quantities, the meter being driven by the flow with stationary measuring chambers having constant volume during measurement
Definitions
- the cham- 35 y bers A and ll are formed .with upper por'- tioiis or extensions A and B respectively, which are .substantially smaller in horizontal cross section than the lower body portions of Each of these eX- tensions is formed with-an opening at its top into which is screwed a valve casing Q.
- Each A.of -the floats SA and SB carries at its top a 95 valve S, adapted, when the float is raised, to seat a ainst'the corresponding valve easing Qv an close, communication between the Vchamber Q' tliereof and the chamber A or B beneath'lt.
- each valve S is 100 rigidly attached to the float carrying it, and
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- Physics & Mathematics (AREA)
- Fluid Mechanics (AREA)
- General Physics & Mathematics (AREA)
- Self-Closing Valves And Venting Or Aerating Valves (AREA)
Description
A. B. WALLEM.
LIQUID MEASUHING APPARATUS.
APPucATloN man Ams. |914.
Patented Mar. 13, 1917.
a sains-suur. if
l INVEOR Ey ."7 l
WITNESSES A. WALLEM. UQUID MEASURlNG APPARATUS.
APPLlCATlON FILED APR. 3,1914.
1.218326. Patented Mar.13,1917
A TTQRNE v YA. B. wALLEM. Lloulo MsAsuains APPARATUS.
APPLICATION FILED APILS. 19H
Patented Mar. 13, 1917.
A 3 smits-snit? 3.
. l. H; d I l ,L ab d@ dfb l l A Y ATTORNEY j UNITED STATES PATENT OFFICE.
AXEL B. WALLEN, on CYNWYD, rENNsYLvANia, AssiGNon To JosiiiPI-ih s. LQVENING WHARTON, WILLIAM s. HALLOWELL, AND JOHN c. JONES, ALL o F B ITHLADELPHIA, PENNsYLVANiA, DOING BUSINESS UNDER THE FIRM-NAME 0F nAnnIsoN SAFETY 4norman; WORKS.
To all 'whom may concern:
VBe it known that I, AXEL B NV'ALLEM, a citizen of the United yStates of America, residing in Cynivyd,"in the county oi Montgoinery, in the State oi Pennsylvania, have invented certain new and useful Improve ments in LiqiiidMeasiii-ing Apparatus, of
which the following is a true and eXactdeseription, reference being had to the aoeoinpzfiying drawings, which torni a part thereof, l
My 'presenti rinvention relates to liquid yiiieasurinbr apparatus of the kind in which a measuring chamber is caused to alternately till, and disclia'rgeyand more partieiilarl)7 to lthe type oij nieiriiig apparatus disclosed and claimed in iiiyprio l-.ateii`t- No.' 1,062.93?, granted May 27th. 1913, in which the liquid to be measured is passed through one or the `f other of two measuring chain-tiers which. alternately fill and empty. 1 i li'iiuary`objerts of the present invention are to 'provide improved operating o oii trolling iiieansfor the valve ineehailiini by whirhfa measuringY chamber is caused `to discharge and then fill up again, as the coiiditions oiuse may require the discharge of measured liquid; and to provide satisfactory iiieans` for venting or avoiding undesirable `changes of pressure-in the upper portion of a measuring" eliainber as the lattei` fills and empties.
The various ifea-'tures of; novelty which with particiilarit)7 inthe claims annexed to 1 and forming a part 'of this specification. For .a betteiuliderstaiidiiig` of the invention. however` and of the. advantages possessed b v it, reference. should be had to tliefareoinpaiifying drawings and descriptive matter. in which 'have illustrated and described preferred forms o'ic apparatus en'ibodyiiigj my invention.
(7)1 the drawings: Figure l is-a front elevation olf iny iiiiF roved iiieasui'iiigi apparatus. withpartsl broken awa v and in sertion; Fig. L isa par-V tial sertioii on the line l, and on a `ljargnir scale than Fig. `1; Fig. i side elevation ot' the apparatus sliowii `iu Fig. l; Figi. l is a 'sectionalelevationtaken on the ,lineat of Fig. 3'; Figo is a partial side Specification of Letters iivatent.
`Application led April 3, 1914. Sera-.1 No. 829,282.
-foriiied with ports fla' and do",
cha iaoterize my invention are pointed out LIQUID-MEASURING APPARATUS( Patented Mar. 13. 1917.v
elevation taken si-nilarly to Fig. 3,bi1t on a larger seale; ancl ,Fig. G is a section taken on the broken lii'ie ('r-G of Fig. 5.
n the drawings, A and'B represent the two measuring chambers,- Which, `preferably as shown, though not neeessari1y,ai e in the forni of the similar compartments into which a casing element C is divided by'acleritrai.1` partition C. As shown, the tivo compartments A and B are forlnedwith inlet ports at'their 'irpper ends, and outlet ports at'their lower ends. The two iiilet openings coin- ;nuiiicate with corresponding outlet passages /Pand (N), respectively, formed iii the cas ing ot, a valve D, secured to the easing ele* nient .-The easing'otvalve D is foi-ined with a` cylindrical partition il', concatqto 4the inlet chamber "Il of tlievalve easing,ii-"nd` pnnecb, ingr the i chamber (l with the outlet pa ssages la and di), respectively.y Phe flow,
'through the ports flo and Jb" is eoiitrolled ieetiiig' through the valve 'asiiigx' Jlil Fig? 4. the valve Iiieiiiliei D', when iii the-fun 'line position, closes" the port (u while leur?,
ing the port db open, and when iii thef dotted luie position` closes the port- Jb while leavingr the pori fla. open.. The valve .neinber D" is advantageously foriiiediwgli sui rient lap so that in moving from either posipreviousl \y vopen before opening,r the. pre riousliy closed port. The inlet elia'inbei' d of .the casing I) is connected to --tlie conduit or reservoir supplying-the water Y to be iiieasiiredi v Y The outlet ports from the chambers A and 'l, rospeetivelv, communicate-with inlet pas- "sages 'mi and el. respectively, of the vaine E,
ytion into theotlier position itclosesthe port i s Jondin valve casings with o )erating arms an El, respectivel "he armsl)lo and l* are connected by inks O2 and 0, respectively, to an operating lever O, fulcrumed at 0. The valves and operating connections are so arranged that normally the inlet port-da or db, leading to one, and
the outlet port eb or en, leading from the other of the chambers A and B, are open, `while the other two of the four ports cla, db,
, e?) and maare closed, thus permitting the one ing closed theI two ports previously open.
The oscillating'movements of lever are brought about by a fluid pressure motor comprising a cylinder M, in which works a piston N, having' its stem connected by a link N to the lever The cylinder M receives the motive fluid, which may be steam or other `suitablel and convenient fluid under pressure, through the supply pi e L.
The passage of the pressure uid through the supply pipe L is directly controlled, in
the particular form of apparatus shown, by the primary cut oil' valve K, and the passage of ,thez ressure fluid into one end or the other o the c linder M, as well as the eX- haust-'from tie cylinder, is directly con- -troiledby a. dise-itesm; wave. 1i.
The primary 4cut o' valve K is operated by a float I in response to variations inthe height of water level in the chamber or conduit section Gv into which the chambers A and B discharge. The measured water issues from .thechamber through the outlet fos G and may pass froin'the 'latter to a boiler feed. )ump orheotherwise disposed of. The
s ve tothe' riseand fallof the iechamber Gr,is arranged as water. level-` in .Y 'shownina float-chamber H; attached to the' side of v'and fo'riniiig an extension ofthe chamber As-shown, the float I iscarried by: airarinisecuredlto a shatI,' which', externallyofth: "lat chamberH, carrles an arm moveir'i'ent'Toll th' -s'pondu'ig movement ofytbc vallveuK. -The l, The latten is connected b va link AI3 to i vi .the 'operating lever K ofthe valve K. The
pi'n and slot co mection--sl-iown between the arm I2 andtl link rants of' a limited =floi l without a. corre- .spring pressed cam "leien-:lm insures a quick movement ofthelfloat ll in either direction.
The valve R-connects the pipe L to the upper or lower end of the c vlindcr M accordingly as the movable valve member R is in itsiipper or lower position. The valveV also connects he vupper or lower end .of the ey1-' .the chambers A vand ll.
inder M to the exhaust pi )ing L10 accordingly as the valve member t is in its lower or upper position.
In so far as above described my improved measuring apparatus does not differ 1n sub 7o stance from apparatus shown in my said pr`ior patient. In the present apparatus the distributing valve R is operated b yl floats responsiveto the varying accumulation of water in the chambers A and B, as in my prior patent; but tlic present apparatus di fers from that of the prior patent in the arrangement of the actuating floats and the connections 'through which the floatsoperate the distributing valve. In my resent ap-l 8o paratus, moreover, l have provided 'valves operated by the floats for closing the vent pipes from the chambers A and B when the latter are filled.
In the apparatusI shown herein, the cham- 35 y bers A and ll are formed .with upper por'- tioiis or extensions A and B respectively, which are .substantially smaller in horizontal cross section than the lower body portions of Each of these eX- tensions is formed with-an opening at its top into which is screwed a valve casing Q. Working in the chamber extensions A vand B"'are floats SA and SB, respectively. Each A.of -the floats SA and SB carries at its top a 95 valve S, adapted, when the float is raised, to seat a ainst'the corresponding valve easing Qv an close, communication between the Vchamber Q' tliereof and the chamber A or B beneath'lt. As shown, each valve S is 100 rigidly attached to the float carrying it, and
has a spherical seat engaging portion, and theseats for the valves S are also spherical. Each of the floats SA and 'SB is loosely connected to a cmresponding stem S by a ball and socket joint S2 above the valve S. Each stem S is connected by links T to a lever T.- The latter is carriedby a rock shaft T2 journaled in a bracket carried .by the casing C. An arm Ta vsecured to the shaft T2 fis`110 oonnected by a link T to a .rocker U jour? lialed on the stationary shaft C1". This shaft also has journaled on it a rocker The hub of the vrocker U is formed with la tooth U entering a recess'or notch YV in .115 i have a,limited angular movement wtrthout giving motion to rocker W. .The latter is 120,
formed with two arms W? and '\V". The arm 'W2 carries a pin W working ina slot R formed in the upper end of a link R2 connected-tov the stem of the valve member Rf.
The arm Wa ofthe rocker W is connected to4 125 p one end of a spring V, Awhich has itsother end so. connected to the easing C that when' the rocker W is shifted from the ful-l to the dotted line positions of Fig. ('i,.the line of' action of the spring shifts from one side to the other of the'ax'is ot' the shaft and rocker W and tendsl to col'uplete the movement ot' the rocker lV from either position into the other. As the rocker lV completes fp lever arm Ts and counterweight T, As
"shown the vent valve casings Q and the float chamber H are connected to vent or equahz- `ing pi ingP. When the apparatus 'shown is emp, oyed to measure the hot water comi ing from an open feed Water heater, as in my said prior patent, the equalizing -piping P `should beccnnected to the steam space of` the heater., When the apparatus is used to measure cold water,'the casings Q, need not ,be connected to the piping P, but may open directly tothe atmosphere. shouldv still lead upward from ber H .to the level of the topsof the` measur- The piping P ing chambers, if the `condltons of use are,
such` as to create a4 substantial rhydrostatic pressure at., any time `in the chamber H.'
"Ino' ration,-, While one measuring chamberisA filling and the other isyeinptying, both valves S are oil' their seats, so that there is notendency to produce a vacuum in the chamber which is emptying or to build up an undesirable lfluid pressure above the surface of the Water in the chamber. which is `filling.` As the water risesvi'n thelast mentioned chamber to the level shown inl chamr B' in Fig. 1, the corresponding float (SB as shown in Fig. 1) `is moved yupward uutilthe valve S carried by it, seats. In the yfinal portion of the upward'movfementl of fthe Goat immediately preceding the'seating of the valve, the float acts through the rocker U and its tooth U' to move the rocker fin one "direction or the other through 4the posiv tion in which the line of action of the spring V completes the movement of the rocker lV into one or the other of the tyvo positions shown in Fig. 6. The pin and slot connection. between the rocker l `and valve member Rf results in that the member R is `shifted by the motion of ther rocker W broughtabout by the spring .V and follovvs instantaneously after the. shifting of the `Springe', V from oneside to the other ot' the s laft'fm. The lost motion between the rockers Uand V is such that the rocker U neednot `share in the quick valve closing moveifnent of the rocker vWV. The lost motion between each float' and its stem also permits the lowering of the float in the filled chamber, as
` the latter begins to empty, sufficiently to un seat the corresponding valve S and thus avoid any vacuum' formation, without dis turbing t 1e valve member R". The shifting of the valve member R causes the piston Nin the float cham# the cylinder M to be moved and the valves I) and .IC therebyshifted, if' or when the valve K does not prevent the flou' of the motive fluid to the valve 1x` through the pipe L., v
fixen the amnlratu's is used under one condition otl operation, the arrangement should be such that when eithermeasuring chamber A. or after being filled, is opened to the chamber (i, tbe filled measuring ehamber will empty, and the emptied chamber will fill, in time than is required for the water passing out ofthe emptylng cha m ber, to flow through the chamber (l. In other words,pwhen the chamber G supplies a boiler feedy pump, for instance, the appa'- 'ratusshould be so designed that either chamber A or B will fill or empty in less time than that required by the Working at its maximum capacity, to pump out of `the receptacle -G'a quantity of water equal to that which either chamber A or B will hold. In consequence, as either measuring chamber begins to discharge, the water levelpin the receptacle and Hoat chamber H rises and theifloat I then closes the valve K. lVhen the one chamber has been em )tied and the othe` lillwl the valve member: it is moved so as to permit the motive fluid to move the piston N to the otherendofv the cylinder M. But such movement of the piston N will not occur until the level of the boiler feed pump,
liquid in float chamber H falls sufficiently to allow the valve K to open, thus the motive fluid to the cylinder M; When admitting f l therefore the withdrawal of Water from the `receptacle G sufficiently lowers the water level in the latter, the float-1v falls and opens the valve K. Under this' condition of operation the filling chamber `will'fill in less time than the emptying chaniberempties and the` valve K is needed ,to preventv the i shifting of the valves D and E before. the
emptyingr chauiber is entirely empty.
When the apparatus is used to measure water of condensation discharging into a hot well, for instance, the flow through the chamber G may well be unrestricted so that if the ports ce and ab are larger than the ports da and do', respectively, the emptying chamber may empty in less time than the filling chamber fills. In t-his'case the valve K will'always! be open and hence is unnecessary and may be 'dispensed` with.
Inaslnuch-as the horizontal cros section of the chamber extensions A' andfB is sub` stantially less than that of the body portions of the chambers A and B, andas these chamber extensions are substantially filled moreover by the floats SA and SB, an a ppreciable difference in theyheight of water level in a chamber extension A orBf at the instant at which the valves Dfand E shift will make but an insignificant ljiercentage change 41n the amount of( waterfin the chamber which then begins to empty. closing of the vent opening of the filled chamber prevents liquid from passin out through the vent opening and any variation in the effective capacity of the measuring chamber from this cause. As the operating connections between the valve controlling mechanism and the floats SA and SB pass through the vent openings in the tops of the chambers A and B, no stufling box provi? sions for these'loats need beY made in the walls kof the measuring chambers proper. Gage glasses Z are connected at "their lower ends by pipes Zone to the `passage ea and the other .to the passage eb of the valve E, and are connected at their upper ends to the corresponding vent valve casings by piges Z2.
he oscillating movements of the lever O and thereforethe number of times the two chambers A and B lill and empty, are counted by means of a counting train X heaving its operating lever X connected to thevl'n O2.
empty, I may provide a clock driven recording device Y having its actuating member Y engaged and operated by the lpin N? connected to the ,piston N on each up and down` movement of the latter. i
lVhile in accordance with 'the provisions of the statutes I have illustrated and described the best forms of my invention now known to me, it will be apparent to those skilled in the art that changes may be made'in the forms of apparatus disclosed without departing from the spirit of my invention, and that under some conditions certain features of my invention may be used with advantage,v without a corresponding use of other features l A Having now described my inventiomwhat I claim asnew and desire to secure by Letters Patent, is: l
V1. A liquid measuring device comprising two measuring chambers each formed withl a. vent port at its top, 'a valvemeehanism comprising controlling the admission to and discharge from said chambersand means for automatically shifting said mechanism to cause said chambers' to fill and empty alternately, a float in each chamber, an op erating connection to each float extending through the corresponding vent port. and a lvalve carried, by each float for closing the corresponding vent port as the 'loat rises to its upper position. y
2. 'A liquid measuring device comprisingr two measuring chambers. a valve mrrhai nismucontrolling the admission to, and discharge from said chambers, and means for automatically shifting said mechanism to cause-said chambers to,fill and empty alternately, said means comprising fluid pressure valve shifting mechanism, a controlling To obtain a graphic record of the number of times the measuring chambers fill and The positve'v-valve theretor, an actuatin member for said .valve, said member being s iftable back and forth between two operative positions, means acting onsaid memberto cause the latter to complete a. movement `from one :position to the other after anY initial `portion of said movement has been made, ,and means ren sponsive to the distribution ofl liquid in the two measuring chambers for starting said -movement in one direction or thel other as one or the other of the two chambers be vcomes filled and the other empty.
3. A liquid measuring device comprising two measuring chambers each formed with a vent port at its top, a valvemechanism con trolling the, admission to and discharge from rsaid chambers, and. means for automatically 'shifting said mechanism to. cause said chambers to fill and empty alternatelyr comprising a 'loatfin each chamber, `valves moved by the floats for alternatelyclosing each vent port 'as the corresponding oat -risesto its upper position, a memberthrough which said valve mechanism is actuated, meal'is including an operating connection to each float extending through a corresponding vent port connecting said floatsforactuating said member said last means being so connected to said `member as to permitan ini tial` movement of each {loat out of its upper position without producing al corresponding movement of said member. v I
4. A liquid measuring device [comprising two measuring chambers, a valve mechanism controlling the admission'to and discharge from said chambers, and means for automatically shifting said mechanismlto cause sa-id chambers to fill and empty` alternately, said means comprising a Irocker shiftable back and forth between two positions, a. device connectedthereto and act-ing to cause the rocker to make the final portion of a,
means permitting a limited angular move! ll i) ment of said second rockerI relative to the other but causing the motion ofsaid second rocker to be transmitted to the othii when the movement of said second rocker exceeds said limited movement and float actuated means responsive to the distribution of liquid in said chambersiior oscillating said Vsecond rocker on predetermined changes in the said distribution. v y v p ln a liquid measuring device having a measuring chamber formed with a vent port at its top` a valve' mechanism for causing said chamber to alternately fill and empty, controlling means therefor including a float located in said chamber and an operating connection extending through said port through which said float actuates said mechanism to interrupt the supply of liquid
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US82928214A US1218726A (en) | 1914-04-03 | 1914-04-03 | Liquid-measuring apparatus. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US82928214A US1218726A (en) | 1914-04-03 | 1914-04-03 | Liquid-measuring apparatus. |
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US1218726A true US1218726A (en) | 1917-03-13 |
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US82928214A Expired - Lifetime US1218726A (en) | 1914-04-03 | 1914-04-03 | Liquid-measuring apparatus. |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2649713A (en) * | 1951-01-29 | 1953-08-25 | Lee R Dunavant | Liquid metering apparatus |
-
1914
- 1914-04-03 US US82928214A patent/US1218726A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2649713A (en) * | 1951-01-29 | 1953-08-25 | Lee R Dunavant | Liquid metering apparatus |
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